Abstract

Photoluminescence(PL) is commonly used for investigations of Cu2ZnSnS(e)4 [CZTS(e)] and Cu(In,Ga)Se2 (CIGS) thin film solar cells. The influence of interference effects on these measurements is, however, largely overlooked in the community. Here, it is demonstrated that PLspectra of typical CZTS absorbers on Mo/glass substrates can be heavily distorted by interference effects. One reason for the pronounced interference in CZTS is the low reabsorption of the PL emission that typically occurs below the band gap. A similar situation occurs in band gap graded CIGS where the PL emission originates predominantly from the band gap minimum located at the notch region. Based on an optical model for interference effects of PL emitted from a thin film, several approaches to reduce the fringing are identified and tested experimentally. These approaches include the use of measured reflectance data, a calculated interference function, use of high angles of incidence during PL measurements as well as the measurement of polarized light near the Brewster angle.

Nina Shariati Nilsson is acknowledged for AFM measurements. The research is funded by the Swedish Research Council, the Wallenberg Academy Fellows Program and the People Program (Marie Curie Actions) of the European Union's seventh Framework Program FP7/2007-2013/ under REA Grant Agreement No. 316488 (KESTCELLS) and Grant Agreement No. 284486 (SCALENANO).